Donahuepetterson9746

Human Fibroblast Growth Factor 19 (FGF19) and mouse ortholog Fgf15 play similar roles in liver regeneration and metabolism via the activation of Fgfr4/b-klotho (Klb). Monomeric FGF19 and dimeric Fgf15 are both necessary for liver regeneration and proper bile acid (BA) metabolism. FGF19 elicits stronger effects than Fgf15 on glucose and fatty acid metabolism and only FGF19 induces hepatocellular carcinoma (HCC). However, inhibiting FGF19/FGFR4 signaling in HCC patients is associated with toxicity due to elevated BA levels. Here, we examine the structure/function relationship in Fgf15/FGF19 to better understand the molecular basis for their distinct functions. We demonstrate that FGF19 is a more effective activator of Fgfr4 and of downstream signaling (Erk, Plcg1) than Fgf15. Furthermore, we use site-directed mutagenesis to show that the presence or absence of an unpaired cysteine in Fgf15/19 modulates ligand structure and determines the ability of these molecules to induce hepatocyte proliferation, with monomers being more potent activators. Selleckchem Nivolumab Consistent with these findings, an engineered dimeric variant of FGF19 is less effective than wild-type FGF19 at inducing liver growth in cooperation with the Wnt-enhancer RSPO3. In contrast to effects on proliferation, monomeric and dimeric ligands equally inhibited the expression of Cyp7a1, the enzyme catalyzing the rate limiting step in BA production. Thus, structure and function of Fgf15/FGF19 are intricately linked, explaining why FGF19, but not Fgf15, induces liver tumorigenesis. Our data provide insight into FGF19/FGFR4 signaling and may inform strategies to target this pathway while limiting on-target toxicity due to dysregulation of BA production or induction of hepatocyte proliferation.Stem cell-based therapies for various ailments have attracted significant attention for over a decade. However, low retention of transplanted cells at the damaged site has hindered their potential for use in therapy. Tissue engineered grafts with fibrillar structures mimicking the extracellular matrix (ECM) can be potentially used to increase the retention and engraftment of stem cells at the damaged site. Moreover, these grafts may also provide mechanical stability at the damaged site to enhance function and regeneration. Among all the methods to produce fibrillar structures developed in recent years, electrospinning is a simple and versatile method to produce fibrous structures ranging from a few nanometers to micrometers. Coaxial electrospinning enables production of a mechanically stable core with a cell-binding sheath for enhanced cell adhesion and proliferation. Furthermore, this process provides an alternative to functionalized engineered scaffolds with specific compositions. The present article describes the protocol for developing a polycaprolactone (PCL) core and gelatin/gelatin methacrylate (GelMA) sheath laden with stem cells for various regenerative engineering applications. © 2021 Wiley Periodicals LLC. Basic Protocol 1 Uniaxial PCL electrospinning Basic Protocol 2 Coaxial electrospinning Support Protocol 1 Scaffold characterization for Basic Protocols 1 and 2 Basic Protocol 3 Cell seeding on uniaxial and coaxial electrospun scaffolds and MTS assay Support Protocol 2 Preparation of scaffold with cells for scanning electron microscopy.The sea louse Caligus rogercresseyi is the most important pathogen causing "caligidosis" in the Chilean salmon industry. In this study, using cox1 gene, we evaluate the genetic variation of C. rogercresseyi from farmed Salmo salar along a latitudinal range (40°-52°S) in south Chile to determine whether morphological differences are explained by genetic or environmental factors. Female parasites were randomly collected from S. salar at five farms. Body variation was examined using multivariate analyses and genetic heterogeneity was explored with AMOVA. C. rogercresseyi exhibited significant morphometric variability among sites and parasites collected from >54°S were the longest ones. Parasites did not show genetic structure among farms. Thus, C. rogercresseyi infesting salmons is panmictic along an extensive latitudinal range in south Chile. The same genetic pattern can be explained by the frequent movement of parasitized S. salar among farms in that region. Phenotypic plasticity in parasites could be explained by natural or aquaculture-mediated environment variability. C. rogercreseyi from 54°S could favor the local spread of this disease, suggesting an immediate health risk for the recent salmon industry in that region. Further research is required to confirm genetic homogeneity of this parasite along its geographical distribution using more powerful markers (e.g. SNPs).It has been well-established that cancer cells often display altered metabolic profiles, and recent work has concentrated on how cancer cells adapt to serine removal. Serine can be either taken exogenously or synthesized from glucose, and its regulation forms an important mechanism for nutrient integration. One of the several important metabolic roles for serine is in the generation of bioactive sphingolipids since it is the main substrate for serine palmitoyltransferase, the initial and rate-limiting enzyme in the synthesis of sphingolipids. Previously, serine deprivation has been connected to the action of the tumor suppressor p53, and we have previously published on a role for p53 regulating sphingosine kinase 1 (SK1), an enzyme that phosphorylates sphingosine to form sphingosine-1-phosphate (S1P). SK1 is a key enzyme in sphingolipid synthesis that functions in pro-survival and tumor-promoting pathways and whose expression is also often elevated in cancers. Here we show that SK1 was degraded during serine s mitochondrial function.Cellular viral reservoirs are rapidly established in tissues upon HIV-1/SIV infection, which persist throughout viral infection, even under long-term antiretroviral therapy (ART). Specific integrins are involved in the homing of cells to gut-associated lymphoid tissues (GALT) and inflamed tissues, which may promote the seeding and dissemination of HIV-1/SIV to these tissue sites. In this study, we investigated the efficacy of prophylactic integrin blockade (α4β7 antibody or α4β7/α4β1 dual antagonist TR-14035) on viral infection, as well as dissemination and seeding of viral reservoirs in systemic and lymphoid compartments post-SIV inoculation. The results showed that blockade of α4β7/α4β1 did not decrease viral infection, replication, or reduce viral reservoir size in tissues of rhesus macaques after SIV infection, as indicated by equivalent levels of plasma viremia and cell-associated SIV RNA/DNA to controls. Surprisingly, TR-14035 administration in acute SIV infection resulted in consistently higher viremia and more rapid disease progression.